Partial stabilization of large-scale discrete-time linear control systems

Author

Benner, Peter ; Castillo, Maribel ; Quintana-Ortí, Enrique S.

Author_Institution

Fachbereich Math. und Inf., Bremen Univ., Germany

fYear

2001

fDate

2001

Firstpage

93

Lastpage

98

Abstract

We propose a parallel algorithm for stabilizing large discrete-time linear control systems on a Beowulf cluster. Our algorithm first separates the Schur stable part of the linear control system using an inverse-free iteration for the matrix disc function, and then computes a stabilizing feedback matrix for the unstable part. This stage requires the numerical solution of a Stein equation. This linear matrix equation is solved using the sign function method after applying a Cayley transformation to the original equation. The experimental results on a cluster composed of Intel PII processors and a Myrinet interconnection network show the parallelism and scalability of our approach

Keywords

control system CAD; discrete time systems; parallel algorithms; stability; workstation clusters; Beowulf cluster; Intel PII processors; Myrinet interconnection network; Stein equation; discrete-time linear control systems; inverse-free iteration; linear control system; linear matrix equation; parallel algorithm; stabilizing feedback matrix; Clustering algorithms; Concurrent computing; Control systems; Kernel; Large-scale systems; Multiprocessor interconnection networks; Parallel algorithms; Riccati equations; Scalability; Symmetric matrices;

fLanguage

English

Publisher

ieee

Conference_Titel

Parallel Processing Workshops, 2001. International Conference on

Conference_Location

Valencia

ISSN

1530-2016

Print_ISBN

0-7695-1260-7

Type

conf

DOI

10.1109/ICPPW.2001.951856

Filename

951856